US6594496B2 - Adaptive capacity management in a centralized basestation architecture - Google Patents
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- US6594496B2 US6594496B2 US09/965,584 US96558401A US6594496B2 US 6594496 B2 US6594496 B2 US 6594496B2 US 96558401 A US96558401 A US 96558401A US 6594496 B2 US6594496 B2 US 6594496B2
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W16/00—Network planning, e.g. coverage or traffic planning tools; Network deployment, e.g. resource partitioning or cells structures
- H04W16/02—Resource partitioning among network components, e.g. reuse partitioning
- H04W16/06—Hybrid resource partitioning, e.g. channel borrowing
Definitions
- This invention relates generally to a system and method for providing communication channels from centrally located cellular basestations to remotely located cells in a way that can significantly reduce the required number of channels needed to serve the remote communication traffic.
- a geographic area is divided into coverage areas called cells.
- cellular traffic is provided by a cellular basestation.
- the basestation provides radio coverage for a cell through its front end.
- This basestation's radio coverage establishes RF communication links to and from mobiles users. These communication links are referred to as traffic channels.
- traffic channels These communication links are referred to as traffic channels.
- the number of radio channels allocated to each cell is fixed. Since each cell must be served by enough channels to meet the peak demand capacity with a specified grade of service or a probability of call blocking, the total number of radio channels required in the system can be quite high. Therefore, the costs can also be high.
- This article gives a scheme for allocating physical link capacity among various virtual data path traversing the link. This scheme only improves the efficiency of the network by the virtual paths.
- the physical links remain fixed. Therefore, the costs of the pre-determined physical links in a virtual path network are still the same.
- a combine array is used to steer radio coverage from functioning cells or sectors in to a cell or sector wherein a RF transceiver has failed.
- RF transceivers from neighboring cells can temporarily provide coverage into those cells with failed transceiver until the failed transceiver can be replaced.
- this method only improves reliability of coverage but not efficiency and costs.
- the main objective of this invention is to achieve a system sensitive to traffic demands, and capable of switching traffic channels from one cell to another.
- the invented system physically assigns channels to cells that have high traffic by borrowing channels from cells that have low traffic demand.
- the number of traffic channels in each cell is not fixed anymore. Given cell's peak times do not overlap, the invented system reduces the total number of traffic channels needed to serve the system-wide traffic.
- the system reduces the required capacity, cuts costs, and dynamically improves overall system efficiency.
- the key difference between the data network capacity maximizing strategies and the present inventions are that (1) the former treats digital packet-switched data whereas this invention treats RF signals, (2) the former deals with a network with fixed communication links whereas this invention dynamically moves physical links (or traffic channels) among cells, and (3) the optimization method of this invention is unique.
- An Adaptive Capacity Management System receives information and instructions from a controller and assigns channels to remote cells in such that the total number of channels needed is minimal at a given grade of service (GoS).
- the system comprises one or more centrally located basestations, a capacity management controller, a router, RF transport means, and RF transceivers.
- the basestations provide RF channels and the radio transceivers are located in the cell sites (far away from the basestations) to provide RF coverage.
- the RF transceivers communicate with the centrally located basestations through RE transport means. If the capacity demands of the system shift from cell to cell over time then the intelligent capacity management system described herein can divert traffic channels to where they are needed. As a result, the present invention substantially reduces the total number of radio channels required to serve the system-wide traffic. Furthermore, in this arrangement, it is easy to operate and maintain the one or more central basestations because they are centrally located.
- Each algorithm uses a specific metric to minimize the number of channels required to serve the system-wide traffic. These metrics are the worst-case blocking metric, the system blocking metric, the weighted average blocking metric, and the expected number of calls metric.
- FIG. 1 illustrates a block diagram of an Adaptive Capacity Management System comprising a basestation, a capacity controller, an N ⁇ M RF router, M RF Transports, M RF transceivers, and M remote cells.
- FIG. 2 is a block diagram of a 4 ⁇ 3 switch matrix, corresponding to the N ⁇ M RF router in the system block diagram shown in FIG. 1 .
- FIG. 3 is a block diagram of an alternative router in which one radio serves as an extra source if traffic capacity that can be switched into one of three cells if needed.
- FIG. 4 is a router configuration providing backup for outage of radio 2 .
- FIG. 5 is a flow chart of an optimization algorithm for the worst-case blocking metric to reduce the number of assigned channels to cells.
- a preferred embodiment of the present invention is designed to operate in the context of one or more wireless communication systems providing services to digital cellular telephones, pagers, wireless modems, and other portable or stationary communication devices.
- a basestation 10 comprises one or more channel supporting radios.
- the basestation 10 can include more than one basestations.
- Basestation 10 provides the capacity N max RF channels available to support traffic calls in cells 16 .
- each RF channel or radio channel supports multiple traffic channels.
- TDMA time division multiple access system
- a single RF channel supports several timeslots. Each timeslot is a traffic channel.
- the RF channels are switched to different cells as needed.
- individual traffic channels are switched.
- basestation 10 is centrally located to provide N max RF channels to remote cells 16 . These channels are connected to RF router 12 .
- the RF router comprises a bank of RF switches 20 (FIG. 2) that are connected to the basestation radios. The switch routes each of the RF channels to one of the three RF combiners 30 (FIG. 2 ).
- RF router switches RF channels to remote cells 16 according to the control signal from a capacity management controller 13 (CMC).
- CMC capacity management controller 13
- FIG. 2 shows an example of FR router 12 , an N ⁇ M router.
- N max equals to 4 and M equals to 3.
- Channels RF 2 and RF 4 are routed to cell 1 .
- RF 1 is routed to cell 2 and RF 3 is routed to cell 3 .
- RF router 12 can be implemented such that not all RF inputs can be switched to any output. This would result in a more economical and more easily implemented design. It should be clear that there exist many other methods for implementing RF router 12 .
- FIG. 3 Another example of the RF router is illustrated in FIG. 3 where each of three cells is served by one dedicated channel.
- an additional reverse channel is switched to any one of them.
- radio 4 is a dedicated channel to serve cell 1 .
- the channel from radio 4 can be switched to cell 3 .
- This serve channel can also serve as a backup channel in case of one of the dedicated channels does not work.
- RF switches are used instead of RF combiners as shown in FIG. 2 .
- FIG. 4 shows another example of the RF router.
- radio 4 is used as a backup and radio 2 is designed to serve cell 2 . But when radio 2 is out, cell 2 could switch to radio 4 as a backup.
- RF router 12 routes each of the N max channels to RF transports 14 inputs.
- RF transport 14 could be coaxial cables, frequency channels, optical cables, etc . . . .
- Both base station 10 and RF router 12 are controlled by a capacity management controller (CMC) 13 .
- RF signal transport means 14 connect RF router 12 to radio transceivers 15 then to cells 16 .
- the signal transport means 14 There are many possibilities for the signal transport means 14 .
- One such solution well-known in the art, is to AM modulate laser light with the RF signals and transmit this modulated light through single-mode fiber. At the far end of the fiber the optical signal is converted back to an RF signal using a photo-detector.
- any transport mechanism which reproduces at its output the input RF signals will work.
- Radio transceivers 15 are located in the vicinity of cells 16 .
- Radio transceiver 15 comprises M transceivers, denoted as XC 1 , XC 2 , . . . , XC M .
- Radio transceiver XC i communicates to the i th cell of cells 16 .
- radio transceiver XC 1 communicates to C 1 ; XC 2 to C 2 , and XC M to C M .
- XC i takes signal from an output of RF transport 14 and radiates them into cell C i .
- XC i receives signals containing information from cellular units within the cell and transmits them back through RF transport means 14 and RF router 12 back to the basestation.
- a bi-directional communication link is established.
- this bi-directional communication link is a traffic channel. Consequently, the radio transceivers, the RF transport, and the RF router are all bi-directional.
- Capacity management controller (CMC) 13 uses an algorithm to judiciously assign channels to cells 16 to maximize the quality of service to the system given the available number N max of channels available.
- the offered traffic also called traffic intensity
- a i (t) in each cell as measured by the basestations 10 .
- capacity management controller (CMC) 13 uses one of the invented algorithms to route unused traffic channels to cells that require additional channels.
- FIG. 5 shows a flow chart for the optimization steps to assign channels to cells using the worst-case blocking metric. This ability can reduce the total number of traffic channels needed to provide a specified grade of service to the cellular system.
- a communication system is characterized by two main quantities.
- the first quantity is the offered traffic vector A representing the offered traffic in each cell at certain time.
- A can be denoted as follows:
- A [A 1 , A 2 , . . . , A M ] wherein A i is a positive, real number representing the offered traffic in the i th cell.
- the second quantity is the traffic channel vector N representing the number of channels assigned to each cell. N can be represented as follows:
- N i represents the number of traffic channel allocated to i th cell. Both A and N vary with time.
- the Erlang B formula determines the probability that a call is blocked in a cell, and is a common measure of the Grade of Service (GoS) for an individual cell.
- GoS Grade of Service
- each traffic channel is assigned to only one cell.
- other embodiments of this invention allow single channels to be assigned to multiple cells.
- a and N represent the offered load and number of traffic channels in each cell respectively. Again A and N are functions of time although for clarity of presentation we do not make this dependence explicit in the notation.
- the first metric is simply the maximum blocking probability of any cell in the system. For the i th cell, let B i be the blocking probability. Then, for offered traffic A i and number of traffic channels N i , B i is given by the Erlang B formula, Eq. 1.
- N ⁇ arg ⁇ ⁇ min ⁇ N ⁇ ⁇ ⁇ ⁇ N ⁇ B 1 ⁇ ( N , ⁇ A )
- the invented optimization algorithm for finding the vector N that optimizes this metric comprises of the following steps:
- Step 3 Find a donor cell that satisfies the following criterion P C (N k i j ⁇ 1,A k ) ⁇ P k M.
- step 1 removes a channel from a cell with low blocking probability and gives to a cell with the worst blocking probability and compare to see if the maximum blocking probability is reduced. Otherwise skip to step 5.
- the second metric used to optimize channel allocation is called the average-blocking metric.
- the 1/M is used to normalize by the number of cells.
- N ⁇ arg ⁇ ⁇ min N ⁇ ⁇ N ⁇ ⁇ B 2 ⁇ ( N , A )
- An algorithm similar to the mini-max channel allocation algorithm can be employed to minimize the average blocking.
- the third metric used to optimize channel allocation is called the system-blocking metric.
- Another way to look at the capacity in the system is to consider the system-wide probability of blocking, that is, the probability that a call will be blocked in any of the M cells.
- the probability that a call is blocked in any of the cells is equal to one minus the probability that no call is blocked in any cell.
- N ⁇ arg ⁇ ⁇ max N ⁇ ⁇ N ⁇ ⁇ B 3 ⁇ ( N , A )
- An algorithm similar to the mini-max channel allocation algorithm can be employed to minimize the system blocking probability.
- the fourth metric used to optimize channel allocation is called the expected number of call metric.
- p k (. , .) is the probability of k calls.
- N ⁇ arg ⁇ ⁇ max N ⁇ ⁇ N ⁇ ⁇ B 4 ⁇ ( N , A )
- An algorithm similar to the mini-max channel algorithm can be employed to minimize the expected number of call blocking.
- N j ⁇ arg ⁇ ⁇ min N ⁇ ⁇ N ⁇ ⁇ B j ⁇ ( N , A ) ,
- N 4 ⁇ arg ⁇ ⁇ max N ⁇ ⁇ N ⁇ ⁇ B 4 ⁇ ( N , A )
- the basestations can be one basestation or a cluster of basestations.
- the RF router is designed to switch traffic channels on a timeslot basis rather than switching the RF channel as a whole. This would allow finer resolution over amount of capacity switched between cells.
- multiple RF channels are combined first, before entering the RF router. Then they are switched together from cell to cell.
- the traffic signals are routed to and from the remote sites in a form other than RF signals.
- the traffic information could be formatted as a digital bit stream and transferred as a data through a digital network.
- the RF router would be replaced by a digital switch.
- the RF router could be replaced by an optical router.
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